The data bus market size was valued at US$ 22.51 billion in 2024 and is expected to reach US$ 32.01 billion by 2031; it is estimated to register a CAGR of 5.3% during 2025–2031. Increased adoption of open and interoperable standards is likely to bring a new market trend.
Factors such as the rise in demand in aerospace and defense applications and continuous technological advancements are driving the data bus market. The market is expected to grow during the forecast period owing to the increasing adoption of industrial automation and advancements in telecommunications. Increased adoption of open and interoperable standards is anticipated to be one of the key trends in the market. However, high implementation costs may hamper the data bus market growth.
A data bus is a crucial subsystem within a computer or digital system that facilitates the transfer of data between various components, such as the central processing unit (CPU), memory, and peripheral devices. It consists of a set of parallel wires or electrical pathways that carry binary information (bits) and can transfer data in either direction depending on the system’s architecture and requirements. The width of a data bus—measured in bits (e.g., 8-bit, 16-bit, 32-bit, 64-bit)—determines how much data can be transmitted simultaneously, directly affecting the system’s overall performance and data throughput. A wider bus allows more data to be transferred at once, enabling faster processing and communication between hardware elements. Unlike address buses, which carry information about where data should go, and control buses, which carry signals to manage operations, the data bus is specifically responsible for the actual movement of data. In modern computing systems, the data bus works in coordination with address and control buses under the guidance of the system clock and instruction set to ensure synchronized, accurate, and efficient data communication across the computer architecture.
The data bus market is experiencing accelerated expansion, largely owing to the rising need for secure, high-speed communication in mission-critical environments. The MIL-STD-1553B protocol, despite its decades-old origin, continues to find new relevance due to its deterministic performance and proven robustness, particularly in applications where failure is not an option. 1553B Data Bus Transformers are not just legacy components but enablers of modern digital communication in environments where redundancy, EMI resilience, and fault isolation are paramount. Their continued adoption supports the scalability and modularization trends in aerospace and defense systems, where open architectures and software-defined capabilities are becoming the norm. Thus, the rising demand for data buses in aerospace and defense applications boosts the data bus market growth.
A key driver of the global data bus market is the continual technological advancement focused on resolving bottlenecks in high-performance computing and AI-based data transfer systems. A compelling recent example comes from NEO Semiconductor, which, on August 5, 2024, unveiled its 3D X-AI chip technology—a groundbreaking innovation designed to alleviate data bus congestion in AI workloads by integrating AI processing directly into 3D DRAM. This innovation is not merely a hardware upgrade; it represents a paradigm shift in managing data between High Bandwidth Memory (HBM) and GPUs during computationally intensive tasks such as those performed in generative AI and machine learning environments.
As processing speeds and data volumes escalate across sectors such as AI, autonomous systems, data centers, and advanced computing, the need for more efficient data bus systems has never been more critical. NEO’s solution, while alleviating some pressure on traditional data buses, also reinforces the market's shift toward hybrid bus architectures, intelligent memory systems, and embedded processing—trends that are fueling innovation across the board. It also catalyzes further research and development in adaptive data bus technologies that can complement or integrate with such embedded AI memory architectures.
Key segments that contributed to the derivation of the data bus market analysis are component, type, and application.
The regional trends and factors influencing the Data Bus Market throughout the forecast period have been thoroughly explained by the analysts at Insight Partners. This section also discusses Data Bus Market segments and geography across North America, Europe, Asia Pacific, Middle East and Africa, and South and Central America.
Report Attribute | Details |
---|---|
Market size in 2024 | US$ 22.51 Billion |
Market Size by 2031 | US$ 32.01 Billion |
Global CAGR (2025 - 2031) | 5.3% |
Historical Data | 2021-2023 |
Forecast period | 2025-2031 |
Segments Covered |
By Component
|
Regions and Countries Covered | North America
|
Market leaders and key company profiles |
The Data Bus Market market is growing rapidly, driven by increasing end-user demand due to factors such as evolving consumer preferences, technological advancements, and greater awareness of the product's benefits. As demand rises, businesses are expanding their offerings, innovating to meet consumer needs, and capitalizing on emerging trends, which further fuels market growth.
Market players density refers to the distribution of firms or companies operating within a particular market or industry. It indicates how many competitors (market players) are present in a given market space relative to its size or total market value.
Major Companies operating in the Data Bus Market are:
Disclaimer: The companies listed above are not ranked in any particular order.
The data bus market is evaluated by gathering qualitative and quantitative data post primary and secondary research, which includes important corporate publications, association data, and databases. A few of the key developments in the data bus market are listed below:
(Source: Emerson, Press Release, February 2025)
The "Data Bus Market Size and Forecast (2021–2031)" provides a detailed analysis of the market covering the areas mentioned below:
Rise in demand in aerospace and defense applications and continuous technological advancements are driving the market growth.
Increased adoption of open and interoperable standards is one of the key trends in the market.
TE Connectivity, Amphenol Corporation, Data Device Corporation, Curtiss-Wright Defense Solutions, and Astronics Corporation are major players in the market.
The market is expected to reach a value of US$ 32.07 billion by 2031.
The market is anticipated to expand at a CAGR of 5.3% during 2025-2031.